Anaerobic membrane bioreactors (AnMBRs) are increasingly being used in industrial wastewater treatment as the technology represents a cost-effective alternative to that based on aerobic processes. Not only AnMBRs are highly efficient in reducing chemical oxygen demand but the organic matter removed is transformed into a useful energy source-biogas. AnMBRs produce effluent that is free of solids and pathogens and rich in nutrients, while occupying a small footprint. As the membrane retains biomass, AnMBRs enhance performance when dealing with inhibitory or toxic substrates, typical of industrial wastewaters. Some drawbacks remain, however, including membrane fouling and its associated effects as well as poor efficiency at lower temperature (AnMBRs are usually operated at mesophilic or thermophilic conditions). Further research is needed on lowering hydraulic retention time, removal of nutrients, removal of specific micro-pollutants, establishing quantitative mass and energy/economic balances and inclusion of efficient dissolved methane recovery. In this mini review, the applications, limitations and perspectives of AnMBRs are summarized and evaluated with an emphasis on industrial wastewater treatment. Moreover, the AnMBR is compared with other wastewater treatment technologies presently available.
Commercial
ultrafiltration membranes were modified using different polymeric
nanofibers in order to gain additional water treatment functionality.
Membrane surfaces were given biocidal properties by adding electrospun
nanofiber structures containing various forms of silver. Changes in
viscosity and homogeneity of the electrospinning solution caused by
the additives limited the amount of silver that could be added; hence,
electrospinning conditions were optimized to maximize silver particle
content. Best results were obtained using highly soluble silver nitrate
and silver benzoate as silver nanoparticle precursors. The biocidal
properties of the modified membranes were confirmed through cultivation
techniques and respirometry, with the results indicating that ultrafiltration
membranes modification using silver-treated nanofibers is a promising
technique.
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